Invariance principle for Lifts of Geodesic Random Walks

Abstract

We consider a certain class of Riemannian submersions π : N M and study lifted geodesic random walks from the base manifold M to the total manifold N. Under appropriate conditions on the distribution of the speed of the geodesic random walks, we prove an invariance principle; i.e., convergence to horizontal Brownian motion for the lifted walks. This gives us a natural probabilistic proof of the geometric identity relating the horizontal Laplacian on N and the Laplace-Beltrami operator M on M. In particular, when N is the orthonormal frame bundle O(M), this identity is central in the Malliavin-Eells-Elworthy construction of Riemannian Brownian motion.